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         "id"   : "https://puma.ub.uni-stuttgart.de/bibtex/2786180a4330f581329b650c3dd2f4cd5/brasche",         
         "tags" : [
            "Metastable_phases","Neutron_diffraction","Transition_states","X-ray_diffraction","diffraction","myown"
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         "intraHash" : "786180a4330f581329b650c3dd2f4cd5",
         "interHash" : "9790fe654a30da8186050580ab13ce9f",
         "label" : "In situ diffraction in electrochemistry \u2013 A practical introduction for experiments beyond batteries",
         "user" : "brasche",
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         "date" : "2024-03-25 12:35:57",
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         "pub-type": "article",
         "journal": "Current Opinion in Electrochemistry",
         "year": "2023", 
         "url": "https://www.sciencedirect.com/science/article/pii/S2451910323000819", 
         
         "author": [ 
            "Iuliia Neumann","Bertold Rasche"
         ],
         "authors": [
         	
            	{"first" : "Iuliia",	"last" : "Neumann"},
            	{"first" : "Bertold",	"last" : "Rasche"}
         ],
         "volume": "39","pages": "101288","abstract": "Electrochemistry and diffraction complement each other particularly well when it comes to the investigation of solids and their surfaces. The electrochemical experiment provides access to thermodynamic and kinetic information, while diffraction provides insights into the atomic structure of crystalline but also amorphous compounds. Gaining these information in one experiment in situ means to trigger phase transitions at ambient temperatures, track rapid changes, and avoid environmental instabilities. Consequently, otherwise non-accessible metastable and transitional phases and structures can be discovered. However, this method is not only limited to bulk phases but also provides information on electrode surfaces. Understanding and building batteries have been one of the main driving forces to establish this technique; nevertheless, this short review intends to provide a \u201Csurvival guide\u201D how to apply the powerful in situ diffraction of electrochemical experiments beyond battery materials. Therefore, we briefly discuss the method together with the available setups and present selected recent examples.",
         "language" : "en",
         
         "file" : "Neumann und Rasche - 2023 - In situ diffraction in electrochemistry \u2013 A practi.pdf:files/6158/Neumann und Rasche - 2023 - In situ diffraction in electrochemistry \u2013 A practi.pdf:application/pdf;ScienceDirect Snapshot:files/6159/S2451910323000819.html:text/html",
         
         "issn" : "2451-9103",
         
         "doi" : "10.1016/j.coelec.2023.101288",
         
         "urldate" : "2023-06-07",
         
         "bibtexKey": "neumann_situ_2023"

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